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pubmed:abstractText |
The effects of monovalent, divalent, and trivalent cations on the binding of tetrodotoxin and saxitoxin to intact nerves and to a preparation of solubilized nerve membranes have been examined. All eight divalent and trivalent cations tested, and the monovalent ions Li(+), Tl(+), and H(+) appear to compete reversibly with the toxins for their binding site. The ability of lithium to reduce toxin binding is paralleled by its ability to reduce tetrodotoxin-sensitive ion fluxes through the nerve membrane. We conclude that the toxins act at a metal cation binding site in the sodium channel and suggest that this site is the principal coordination site for cations (normally Na(+) ions) as they pass through the membrane during an action potential. The dissociation constant for Li(+) is 0.1-0.2 M and for Na(+) > 0.6 M, reflecting the weak binding necessary for rapid passage of sodium ions through the channel.
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